Add to ORKGThis note will show that the energy lost when a beam moves through an equipment, when calculated with the wake field approach (which is a beam impedance concept), is the same as when calculated with electro-technical theory
The principle of Inductive Power Transfer (IPT) is very old but it is rarely used for transferring p...
The second part of our work presents the mathematical model of beam l~oeses measurements. This model...
The theory of the loss of energy of a non accelerated charged particle in a material medium is inves...
Knowledge of the electromagnetic interaction between a beam and the surrounding vacuum chamber is ne...
As demands for high luminosity and low emittance particle beams increase, an understanding of the el...
Parasitic energy loss of the particle beam in the Recycler Ring is discussed. The long beam confined...
Analytic techniques for calculation of impedances and wake potentials in particle accelerators or st...
After a general introduction, the basic principles of wake-field and beamcoupling- impedance computa...
Knowledge of electromagnetic interaction between a particle beam and the surrounding walls of the v...
The energy loss of the electron beam due to synchrotron radiation and wakefields determines an undul...
The transfer of energy from the driving beam to the trailing beam in the plasma wake field accelerat...
The “impedance” limits the performance of all the particle accelerators where the beam intensity (or...
The wake function of an accelerator device appears to have a constant term if the geometry of the de...
A systematic exposition of the basic concepts of wakes and impedances is given for relativistic beam...
The wake fields of a bunched beam caused by the resistivity of the chamber walls are investigated fo...
The principle of Inductive Power Transfer (IPT) is very old but it is rarely used for transferring p...
The second part of our work presents the mathematical model of beam l~oeses measurements. This model...
The theory of the loss of energy of a non accelerated charged particle in a material medium is inves...
Knowledge of the electromagnetic interaction between a beam and the surrounding vacuum chamber is ne...
As demands for high luminosity and low emittance particle beams increase, an understanding of the el...
Parasitic energy loss of the particle beam in the Recycler Ring is discussed. The long beam confined...
Analytic techniques for calculation of impedances and wake potentials in particle accelerators or st...
After a general introduction, the basic principles of wake-field and beamcoupling- impedance computa...
Knowledge of electromagnetic interaction between a particle beam and the surrounding walls of the v...
The energy loss of the electron beam due to synchrotron radiation and wakefields determines an undul...
The transfer of energy from the driving beam to the trailing beam in the plasma wake field accelerat...
The “impedance” limits the performance of all the particle accelerators where the beam intensity (or...
The wake function of an accelerator device appears to have a constant term if the geometry of the de...
A systematic exposition of the basic concepts of wakes and impedances is given for relativistic beam...
The wake fields of a bunched beam caused by the resistivity of the chamber walls are investigated fo...
The principle of Inductive Power Transfer (IPT) is very old but it is rarely used for transferring p...
The second part of our work presents the mathematical model of beam l~oeses measurements. This model...
The theory of the loss of energy of a non accelerated charged particle in a material medium is inves...